EP2206839A1 - Floor drainage system - Google Patents

Abstract

The system (10) has a grill frame (34) for receiving a drainage grill (12), and a compensating pipe (38) for retaining the grill frame. The pipe is height adjustably arranged on a sealing sleeve, for compensating a thickness of a floor covering. The pipe and/or the grill frame are designed such that a drain trap (18) is fixable on the pipe and/or the grill frame. A radial projection (39) is provided at an inner diameter of the pipe or the grill frame, for receiving the drain trap. A gasket (32) seals the drain trap against the pipe or the grill frame.

Description

The present invention relates to a floor drainage system comprising a grate frame for receiving a drain grate, a compensating pipe, on which the grate frame is held and which is arranged to adjust a floor covering thickness adjustable on another component of the floor drain system, and an odor trap.

Such floor drain systems are known in the art. They serve to initiate the collection of accumulating water in the bottom of a corresponding sewer system.

An example of a known floor drain system 100 sold by the assignee under the trade designation "Schlüter Kerdi Drain" is disclosed in U.S.P. FIG. 3 shown schematically. The floor drain system 100 comprises a drain grate 102, on which a plurality of drain openings 104, through which waste water can flow, and bores 106 for receiving fastening screws (not shown) are formed. The drain grate 102 is inserted into a grate frame 108 and screwed to it. The grate frame 108 is in turn secured to a compensating tube 110 which is provided to equalize a floor covering thickness. The floor drain system 100 further includes a balance ring 112. As a further component, the floor drain system 100 has a mat-like seal sleeve 116, which in FIG. 3 for purposes of illustration only half is shown. To compensate for a thickness of an intermediate layer, a height compensation device 118 is provided, which consists of a tube section 120 and a support flange 122 which is formed on the tube section 120 and protrudes radially outwards. For receiving the compensation ring 112, a substantially annular depression 123 is provided on the support flange of the height compensation device 118. The outer diameter of the annular recess 123 is formed larger than the outer diameter of the balance ring 112 and the outer diameter of the balance tube 110 is formed smaller than the inner diameter of the tube portion 120, so that the balance ring 112 within the annular Recess 123 and the compensating tube 110 is displaceable within the pipe section 120 in order to adjust the position of the grate frame 108 within certain limits during assembly can. Along its outer periphery, the support flange 122 is further provided with a plurality of through holes 124 which, when the floor drain system 100 is assembled, cause the height compensation device 118 to be clamped to the mortar or adhesive used. To prevent the escape of unpleasant odors, the floor drain system 100 further includes an odor trap 126 having a cup-shaped base member 128 and an insert member 130. The base member 128 consists of a cup-shaped portion 132 and a ring portion 134 which is held on spacer elements 134 at the top of the cup-shaped portion 132 and defines a bearing surface for the insert element 130. The insert member 130 is formed substantially funnel-shaped and has at its upper end an annular groove 138 in which an O-ring 140 is held. Further, the floor drain system 100 includes a drain housing 142 having a cup-shaped portion 144, a tubular drain 146 extending laterally from the cup-shaped portion 144, and an annular flange portion 148 formed at the top of the cup-shaped portion 144 and extending radially outwardly, one through a seal 150 limited inlet opening 151 defined. Below the inlet opening 151, radially inwardly projecting projections 152 are formed in the interior of the cup-shaped section 144, which form bearing surfaces for the underside of the ring section 136 of the odor trap 126.

For mounting the in FIG. 3 The floor drain system 142 shown, the drain housing 142 is first inserted into a correspondingly sized opening of a support structure such that the flange portion 148 rests on the top of the support structure. Subsequently, the drain 146 of the drain housing 142 is connected to an existing drainage system.

Thereafter, the insert member 130 is inserted into the cup-shaped gate 132 and introduced together with this in the inlet opening 151 of the drain housing 142 until the underside of the ring section 136 of the odor trap 126 at the top of the projections 152 comes to rest. In this position, the odor trap 126 and the drain housing 142 are sealed against each other via the provided on the insert member 130 O-ring 140.

In a next step, an intermediate layer is normally applied to the supporting structure, via which a gradient inclined to the discharge grate 102 of the completely installed floor drain system 100 is realized. Such an intermediate layer can be produced, for example, by applying mortar material. It is also possible to realize the intermediate layer via insulation boards or the like. It is important to ensure that the inlet opening 151 of the drain housing 142 is still fully accessible when arranged intermediate layer.

After completion of the intermediate layer, its height is compensated using the height compensation device 118. For this purpose, the pipe section 120 is cut to length according to the height of the intermediate layer and then inserted into the inlet opening 151 of the drain housing 142. The seal 150 provides for a corresponding sealing of the drain housing 142 relative to the pipe section 120 of the height compensation device 118th

Now, the mortar or adhesive is introduced so that the perforated support flange 122 of the height compensation device 118 is flush with the top of the intermediate layer. By gluing the gasket 116 then a tight transition between the top of the support flange 122 and the top of the intermediate layer is achieved.

In a further step, the compensation ring 112 is arranged in the annular recess 123 of the height compensation device 118. Furthermore, the compensation tube 110 is pre-positioned with the grate frame 108 held in the compensation ring 112, so that between the compensation ring 112 and the grate frame 108 still sufficient space for the flooring to be laid remains. Then the flooring is laid, for example in the form of tiles. During installation of the floor covering against the grate frame 108, the balancing ring 112 within the recess 123 and thus the balance pipe 110 are moved within the pipe section 120, if such adjustment is required. After laying the flooring, the balance tube 110 is then pressed with the grate frame 108 held thereon deeper into the balancing ring 112 until the top of the grate frame 108 is flush with the top of the flooring. In a last step, the drain grate 102 is fixed to the grate frame 108.

If the waste water leaving the floor drain system 100 not laterally but vertically, it can be used instead of the drain housing 142, a drain housing with a vertical outlet, which otherwise has the same structure as the drain housing 142.

A disadvantage of in FIG. 3 The arrangement shown is that the floor drain system 100 builds up relatively high overall. For example, if a shower cubicle is to be installed on an existing floor, then a relatively high pedestal must be provided in order to accommodate the individual components of the floor drain system 100.

Another disadvantage is that a shortening of the pipe section 120 of the height compensation device 118 according to the height of the intermediate layer is very tedious and time consuming. In addition, if the pipe section 120 is accidentally shortened too much, then the entire height compensation device 118 is no longer useful.

It is an object of the present invention to provide a floor drain system of the type mentioned, which has a low overall height. Further, it is an object of the invention to provide a floor drainage system in which truncation of the height compensator - if one is used - is not necessarily required. In addition, a reduction in the number of components is to be made possible in special applications.

To solve this problem, the present invention provides a floor drain system of the type mentioned, in which the balance tube and / or the grate frame is / are designed such that the odor trap can be fixed to this / these. In contrast to that with reference to FIG. 3 described known floor drain system 100, the odor trap is therefore not attached to the drain body but the balance tube or the grate frame. Accordingly, the height of the drain housing, if used, can be reduced while maintaining the total height of the odor trap, thereby also reducing the overall height of the floor drain system.

For receiving the odor trap, a radially inwardly projecting projection is preferably provided on an inner diameter of the compensating tube or the grate frame. In this way, a simple assembly and disassembly of the odor trap is ensured.

Preferably, a seal for sealing the odor trap against the balance pipe or the grate frame is provided. An escape of odors can be prevented accordingly.

The floor drain system advantageously comprises a height compensation device for compensating a thickness of an intermediate layer, wherein the height compensation device has a pipe section and a support flange formed on the end of the pipe section. By providing such a height compensation device, the floor drain system according to the invention can be used very flexibly. To fix the height compensation device, the support flange can have a series of passage openings through which mortar or adhesive can pass for the purpose of anchoring during assembly.

At the inner diameter of the pipe section of the height compensation device, a seal is provided according to an embodiment of the present invention, which receives the compensating tube height adjustable.

Alternatively, the floor drain system may comprise a balancing ring, on the inner diameter of a seal is provided which receives the compensating tube height adjustable, wherein the outer diameter of the compensating tube is smaller than the inner diameter of the pipe section of the height compensation device. In this way, that can be done in the Height compensation device accommodated compensating tube are laterally displaced slightly in a substantially horizontal direction, so that the position of the grate frame with respect to the floor covering is adjustable within certain limits. To fix the compensation ring this can also be provided with through holes through which mortar or adhesive can pass during assembly. For receiving the compensation ring, a substantially annular recess is preferably formed on the support flange of the height compensation device, wherein the outer diameter of the annular recess is greater than the outer diameter of the compensation ring, that the compensation ring is displaceable within the recess.

If the wastewater introduced into the floor drainage system according to the invention is to be discharged vertically, a sewer pipe of a local drainage system can be directly connected to the pipe section of the height compensation device. On a separate drain housing with vertical drain can be omitted accordingly, which costs can be saved. With reference to FIG. 3 described known floor drain system, however, the odor trap is attached to the drain body, so omitting the drain housing is not readily possible.

Alternatively, of course, a drain housing may be provided with at least one vertical outlet, wherein the drain housing comprises on its upper side a provided with a seal opening in which the pipe section of the height compensation device is particularly height adjustable receivable. Such a height-adjustable recording of height compensation device in the drain housing has the advantage that a shortening of the length of the pipe section of the height compensation device in contrast to the prior art in most cases is not required. Rather, the height of the intermediate layer is compensated by the pipe section of the height compensation device is inserted according deep into the drain housing.

If the wastewater introduced into the floor drainage system according to the invention is to be discharged laterally, the floor drainage system according to the invention preferably has at least one lateral drainage Drain housing, which comprises on its upper side provided with a seal opening in which the pipe section of the height compensation device is in particular height-adjustable receivable.

Fig.1

eine perspektivische Explosionsansicht eines Bodenablaufsystems gemäß einer Ausführungsform der vorliegenden Erfindung;

Fig. 2

eine Schnittansicht des in Figur 1 dargestellten Bodenablaufsystems im zusammengesetzten Zustand und

Fig.3

eine perspektivische Explosionsansicht eines bekannten Bodenablaufsystems.

With regard to further advantageous embodiments of the invention, reference is made to the dependent claims and to the following description of an embodiment with reference to the accompanying drawings. In the drawing shows:

Fig.1

an exploded perspective view of a floor drain system according to an embodiment of the present invention;

Fig. 2

a sectional view of the in FIG. 1 illustrated floor drain system in the assembled state and

Figure 3

an exploded perspective view of a known floor drain system.

That in the FIGS. 1 and 2 illustrated floor drain system 10 includes a drain grate 12, which is preferably made of metal or plastic. At the drain grate 12 a plurality of drain openings 14 are formed, can drain through the wastewater. Furthermore, 12 holes or recesses 16 are provided on the drain grate, which serve to receive mounting screws not shown.

The floor drainage system 10 further comprises a scent closure 18 with a cup-shaped base member 20 and an insert member 22, both of which are preferably made of plastic. The base member 20 consists of a cup-shaped portion 24 and a ring portion 26 which is held by spacer elements 28 at the top of the cup-shaped portion 24 and defines a bearing surface for the insert element 22. The insert member 22 is formed substantially funnel-shaped and has at its upper end an annular groove 30 in which an O-ring 32 is held.

For receiving the drain grate 12, a grate frame 34 is provided, which is also preferably made of a metal or plastic. Threaded holes 36 are formed on the grate frame 34, so that the drain grate 12 can be screwed to the grate frame 34. The grate frame 34 is in turn attached to a compensating tube 38 which is provided to equalize a floor covering thickness. In the upper region of the compensating tube 38, protrusions 39 projecting radially inwards are formed, which form bearing surfaces for the odor trap 18, in particular for the underside of the annular section 26 of the odor trap 18.

The floor drain system 10 further includes a plastic equalizer ring 40 which is provided with a seal 42 along its inside diameter. Passage openings 44 are formed along the circumference of the compensation ring 40, through which mortar or adhesive for fixing the compensation ring 40 can penetrate during assembly of the floor drain system 10.

As a further component, a mat-like seal sleeve 46 is provided which in FIG. 1 for purposes of illustration only half is shown.

To compensate for a thickness of an intermediate layer, the floor drain system 10 comprises a height compensation device 48, which is preferably made of plastic. The height compensation device 48 consists of a tube section 50 and an annular bearing flange 52 formed on the tube section 50 at the end and projecting radially outwards. An annular recess 53 for receiving the compensating ring 40 is formed on the inner circumference of the bearing flange 52. The outer diameter of the annular recess 53 is formed larger than that of the balance ring 40 and the outer diameter of the balance tube 38 is formed smaller than the inner diameter of the tube portion 50 of the height compensation device 48, so that the compensation ring 40 within the annular recess 53 and the balance tube 38 within the Pipe section 50 is slidable. In this way, a fine positioning of the grate frame 34 during assembly is possible within certain limits. Along its outer periphery, the support flange 52 is further provided with a plurality of Through openings 54 are provided, which cause a clamping of the height compensation device 48 with the mortar or adhesive used during assembly of the floor drain system 10.

In addition, the floor drain system 10 includes a drain housing 56 having a cup-shaped portion 58, a laterally extending from the cup-shaped portion 58 laterally extending tubular drain 60 and a formed at the upper end of the cup-shaped portion 58 and radially outwardly extending annular flange portion 62, one through a Seal 64 limited inlet opening 66 defined.

For mounting the floor drain system 10, first the drain housing 56 is inserted into a correspondingly dimensioned opening of a support structure such that the flange section 62 rests on the upper side of the support structure. Subsequently, the drain 60 of the drain housing 56 is connected to an existing drainage system.

In a next step, an intermediate layer is normally applied to the supporting structure, via which a gradient inclined to the outlet grate 12 of the finished floor drainage system 10 is realized. Such an intermediate layer can be produced, for example, by applying mortar material. It is also possible to realize the intermediate layer via insulation boards or the like. It is important to ensure that the inlet opening 66 of the drain housing 56 is still fully accessible when arranged intermediate layer.

After the completion of the intermediate layer whose height is compensated using the height compensation device 48. For this purpose, the pipe section 50 is inserted into the inlet opening 66 of the drain housing 56. The seal 64 ensures a corresponding sealing of the drain housing 56 relative to the pipe section 50 of the height compensation device 48. Within the drain housing 56, the pipe section 50 of the height compensation device 48 is displaceable in the vertical direction, so that the distance between the top of the flange portion 62 of the drain housing 56 and the Bottom of the support flange 52 of the height compensation device 48 in dependence can be adjusted by the thickness of the intermediate layer. A cutting of the pipe section 50 of the height compensation device 48 is normally not required here.

Now, the mortar or adhesive is introduced so that the perforated support flange 52 of the height compensation device 48 is flush with the top of the intermediate layer. By gluing the gasket 46, a tight transition between the top of the support flange 52 and the top of the intermediate layer is then achieved.

In a further step, the insert element 22 of the odor trap 18 is inserted into the associated base element 20. Thereafter, the assembled odor trap 18 is inserted into the balance tube 38 with the grate frame 34 held thereon until the underside of the ring portion 26 abuts the top of the radially inwardly projecting protrusions 39.

Then, the compensation ring 40 is disposed in the annular recess 53 of the height compensation device 48 and the balance tube 38 with the grate frame 34 and odor trap 18 held slightly pressed into the balance ring 40, so that between the balance ring 40 and the grate frame 34 still sufficient space for the laying flooring remains. Then the flooring is laid, for example in the form of tiles. During the laying of the tiles against the grate frame 34, the balance ring 40 within the recess 53 and thus the balance tube 38 can be moved within the pipe section 50 to achieve a fine positioning of the grate frame 34. After laying the flooring, the balance tube 38 is pushed deeper into the balance ring 40 until the top of the grate frame 34 is flush with the top of the flooring. A sealing of the compensating tube 38 relative to the compensation ring 40 takes place via the seal 42. In a final step, the drain grate 12 is attached to the grate frame 34.

The in the FIGS. 1 and 2 shown construction of the floor drain system 10 according to the invention is on the one hand to the advantage of that due to the height-adjustable recording of the height compensation device 48 in the drain housing 56, a shortening of the length of the pipe section 50 in compensating the thickness of the intermediate layer is normally not required. On the other hand, there is an advantage in that the overall height of the floor drain system compared with that with reference to FIG. 3 described known floor drain system is smaller, since the odor trap 18 is not fixed in the drain housing 56 but in the balance tube 38 or alternatively on the grate frame 34. Accordingly, the drain housing 56 can be made shallower because it does not have to accommodate the entire odor trap.

If the wastewater does not leave the floor drainage system 10 laterally but vertically, as is the case, for example, with a ceiling opening, then a sewage pipe of a local drainage system can also be connected directly to the pipe section 50 of the height compensation device 48. In this variant can be completely dispensed with a drain housing. Alternatively, of course, a drain housing with a vertical outlet can be used, the structure of which otherwise corresponds to that of the drain housing 56.

LIST OF REFERENCE NUMBERS

10

Floor drain system

12

drain grate

14

drain hole

16

drilling

18

trap

20

base element

22

insert element

24

cup-shaped section

26

ring section

28

spacer

30

ring groove

32

O-ring

34

grate frame

36

drilling

38

balance pipe

39

head Start

40

compensation ring

42

poetry

44

Through opening

46

gasket

48

Height compensation device

50

pipe section

52

support flange

53

deepening

54

Through opening

56

drain body

58

pot-like section

60

tubular drain

62

flange

64

poetry

66

inlet opening

100

Floor drain system

102

drain grate

104

Through opening

106

drilling

108

grate frame

110

balance pipe

112

compensation ring

116

gasket

118

Height compensation device

120

pipe section

122

support flange

123

deepening

124

Through opening

126

trap

128

base element

130

insert element

132

cup portion

134

ring section

136

spacer

138

ring groove

140

O-ring

142

drain body

144

pot-shaped section

146

procedure

148

flange

150

poetry

151

inlet opening

152

head Start

Claims (9)

Floor drain system (10) with a grate frame (34) for receiving a drain grate (12), a compensating tube (38) on which the grate frame (34) is held and arranged to compensate for a floor covering thickness adjustable on another component of the floor drain system (10) is, and an odor trap (18), characterized in that the compensating tube (38) and / or the grate frame (34) is / are formed such that the odor trap (18) is fixable to this / these. Floor drain system (10) according to claim 1, characterized in that at least one radially inwardly extending projection (39) for receiving the odor trap (18) is provided at an inner diameter of the compensating tube (38) or of the grate frame (34). Floor drainage system (10) according to claim 1 or 2, characterized in that a seal (32) for sealing the odor trap (18) relative to the compensating tube (38) or the grate frame (34) is provided. Floor drain system (10) according to any one of the preceding claims, characterized in that a height compensation device (48) is provided for compensating for a thickness of an intermediate layer having a tubular portion (50) and an end of the pipe section (50) formed on the support flange (52). Floor drain system (10) according to claim 4, characterized in that a seal is provided on the inner diameter of the tube section (50) of the height compensation means (48) that receives the equalizing pipe (38) adjustable in height. Floor drainage system (10) according to claim 4, characterized in that a compensating ring (40) is provided, at whose Inner diameter of a seal (42) is provided, which receives the compensating tube (38) adjustable in height, wherein the outer diameter of the balance tube (38) is smaller than the inner diameter of the pipe section (50) of the height compensation device (48). Floor drain system (10) according to claim 6, characterized in that on the support flange (52) of the height compensation means (48) is formed a substantially annular recess (53) for receiving the tolerance ring (40), wherein the outer diameter of the annular recess (53) greater than the outer diameter of the balancing ring (40) is that the compensating ring (40) within the recess (53) is displaceable. Floor drain system (10) according to any one of claims 4 to 7, characterized in that at least one vertical flow exhibiting drain housing is provided having a gasketed opening at its top, in which the tube section (50) of the height compensation means (48) in particular height adjustable is receivable. Floor drainage system (10) according to one of claims 4 to 8, characterized in that an at least one lateral outlet (60) having drain housing (56) is provided, which has on its upper side with a seal (64) provided opening (66), in which the pipe section (50) of the height compensation device (48) is receivable, in particular adjustable in height.

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